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14-481-065
PIDISCH A RGE TEMP. I 04 E AIR C AIR T. FLOW • H FLOW OT SPACE TEMPERATURE ® O T AI AI 10 O O AIR FLOW SENSOR DAMPER R ACTUATOR SPACE SENSOR SELECTION TO BE ® O HEATING COORDINATED WITH OWNER N 3 STAGES CONTROL DIAGRAM A FL INPUT OUTPUT POINTS LIST TAG DESCRIPTION Al AO DI DO O AIR FLOW SENSOR X BAS N/A CONTROL VALVES 02 DAMPER ACTUATOR BAS X BAS SENSORS BAS 03 HEATING STAGES (NOTE 1) X SMOKE DETECTORS 16 X O DISCHARGE TEMP. X 16 16 N/A Ob SPACE TEMP. X 16 BAS 16 NOTES: 1— SEE EQUIPMENT DATA FOR NUMBER OF STAGES. SEQUENCE OF OPERATIONS: RUN CONDITIONS — SCHEDULED: THE UNIT SHALL RUN ACCORDING TO A USER DEFINABLE TIME SCHEDULE IN THE FOLLOWING MODES: OCCUPIED MODE: THE UNIT SHALL MAINTAIN A 741F (ADJ.) COOLING SETPOINT AND A 68F (ADJ.) HEATING SETPOINT. UNOCCUPIED MODE : THE UNIT SHALL CLOSE TO ITS MINIMUM POSITION. ZONE SETPOINT ADJUST /OPTIMAL START /UNOCCUPIED OVERRIDE: THE OCCUPANT SHALL BE ABLE TO ADJUST THE ZONE TEMPERATURE HEATING AND COOLING SETPOINTS AT THE ZONE SENSOR. THE UNIT SHALL USE AN OPTIMAL START ALGORITHM FOR MORNING START —UP. THIS ALGORITHM SHALL MINIMIZE THE UNOCCUPIED WARM —UP OR COOL —DOWN PERIOD WHILE STILL ACHIEVING COMFORT CONDITIONS BY THE START OF SCHEDULED OCCUPIED PERIOD. A TIMED LOCAL OVERRIDE CONTROL SHALL ALLOW AN OCCUPANT TO OVERRIDE THE SCHEDULE AND PLACE THE UNIT INTO AN OCCUPIED MODE FOR AN ADJUSTABLE PERIOD OF TIME. AT THE EXPIRATION OF THIS TIME, CONTROL OF THE UNIT SHALL AUTOMATICALLY RETURN TO THE SCHEDULE. FLOW CONTROL: THE UNIT SHALL MAINTAIN ZONE SETPOINTS BY CONTROLLING THE AIRFLOW THROUGH ONE OF THE FOLLOWING: OCCUPIED: • WHEN ZONE TEMPERATURE IS GREATER THAN ITS COOLING SETPOINT, THE ZONE DAMPER SHALL MODULATE BETWEEN THE MINIMUM OCCUPIED AIRFLOW (ADJ.) AND THE MAXIMUM COOLING AIRFLOW (ADJ.) UNTIL THE ZONE IS SATISFIED. • WHEN THE ZONE TEMPERATURE IS BETWEEN THE COOLING SETPOINT AND THE HEATING SETPOINT, THE ZONE DAMPER SHALL MAINTAIN THE MINIMUM REQUIRED ZONE VENTILATION (ADJ.). • WHEN ZONE TEMPERATURE IS LESS THAN ITS HEATING SETPOINT, THE CONTROLLER SHALL ENABLE HEATING TO MAINTAIN THE ZONE TEMPERATURE AT ITS HEATING SETPOINT. UNOCCUPIED: • WHEN THE ZONE IS UNOCCUPIED THE ZONE DAMPER SHALL CONTROL TO ITS MINIMUM UNOCCUPIED AIRFLOW (ADJ.). • WHEN THE ZONE TEMPERATURE IS GREATER THAN ITS UNOCCUPIED COOLING SETPOINT, THE ZONE DAMPER SHALL MODULATE BETWEEN THE MINIMUM UNOCCUPIED AIRFLOW (ADJ.) AND THE MAXIMUM COOLING AIRFLOW (ADJ.) UNTIL THE ZONE IS SATISFIED. • WHEN ZONE TEMPERATURE IS LESS THAN ITS UNOCCUPIED HEATING SETPOINT, THE CONTROLLER SHALL ENABLE HEATING TO MAINTAIN THE ZONE TEMPERATURE AT THE SETPOINT. ELECTRIC HEATING STAGES: THE CONTROLLER SHALL MEASURE THE ZONE TEMPERATURE AND STAGE THE REHEATING TO MAINTAIN ITS SETPOINT. TO PREVENT SHORT CYCLING, THERE SHALL BE A USER DEFINABLE (ADJ.) DELAY BETWEEN STAGES, AND EACH STAGE SHALL HAVE A USER DEFINABLE (ADJ.) MINIMUM RUNTIME. DISCHARGE AIR TEMPERATURE: THE CONTROLLER SHALL MONITOR THE DISCHARGE AIR❑TEMPERATURE. ALARMS SHALL BE PROVIDED AS FOLLOWS: . HIGH /LOW ZONE TEMP: IF THE ZONE TEMPERATURE IS GREATER/LOWER THAN THE COOLING SETPOINT BY A USER DEFINABLE AMOUNT (ADJ.). VAV BOX WITH HEATING (TYP.) CONTROL DIAGRAM SEQUENCE OF OPERATIONS: I W O SPACE TEMPERATURE AI O 03 SPACE SENSOR SELECTION TO BE COORDINATED WITH OWNER INPUT OUTPUT POINTS LIST TAG DESCRIPTION Al AO DI DO 10 AIR FLOW SENSOR X BAS N/A CONTROL VALVES 02 DAMPER ACTUATOR BAS X BAS SENSORS BAS 03 SPACE TEMP. X SMOKE DETECTORS 16 16 RUN CONDITIONS — SCHEDULED: THE UNIT SHALL RUN ACCORDING TO A USER DEFINABLE TIME SCHEDULE IN THE FOLLOWING MODES: OCCUPIED MODE: THE UNIT SHALL MAINTAIN A 74F (ADJ.) COOLING SETPOINT. UNOCCUPIED MODE : THE UNIT SHALL CLOSE TO ITS MINIMUM POSITION. ZONE SETPOINT ADJUST/OPTIMAL START /UNOCCUPIED OVERRIDE: THE OCCUPANT SHALL BE ABLE TO ADJUST THE ZONE TEMPERATURE HEATING AND COOLING SETPOINTS AT THE ZONE SENSOR. THE UNIT SHALL USE AN OPTIMAL START ALGORITHM FOR MORNING START —UP. THIS ALGORITHM SHALL MINIMIZE THE UNOCCUPIED WARM —UP OR COOL —DOWN PERIOD WHILE STILL ACHIEVING COMFORT CONDITIONS BY THE START OF SCHEDULED OCCUPIED PERIOD. A TIMED LOCAL OVERRIDE CONTROL SHALL ALLOW AN OCCUPANT TO OVERRIDE THE SCHEDULE AND PLACE THE UNIT INTO AN OCCUPIED MODE FOR AN ADJUSTABLE PERIOD OF TIME. AT THE EXPIRATION OF THIS TIME, CONTROL OF THE UNIT SHALL AUTOMATICALLY RETURN TO THE SCHEDULE. FLOW CONTROL: THE UNIT SHALL MAINTAIN ZONE SETPOINTS BY CONTROLLING THE AIRFLOW THROUGH ONE OF THE FOLLOWING: OCCUPIED: •MEN ZONE TEMPERATURE IS GREATER THAN ITS COOLING SETPOINT, THE ZONE DAMPER SHALL MODULATE BETWEEN THE MINIMUM OCCUPIED AIRFLOW (ADJ.) AND THE MAXIMUM COOLING AIRFLOW (ADJ.) UNTIL THE ZONE IS SATISFIED. • WHEN THE ZONE TEMPERATURE IS BETWEEN THE COOLING SETPOINT AND THE HEATING SETPOINT, THE ZONE DAMPER SHALL MAINTAIN THE MINIMUM REQUIRED ZONE VENTILATION (ADJ.). UNOCCUPIED: WHEN THE ZONE IS UNOCCUPIED THE ZONE DAMPER SHALL CONTROL TO ITS MINIMUM UNOCCUPIED AIRFLOW (ADJ.). WHEN THE ZONE TEMPERATURE IS GREATER THAN ITS UNOCCUPIED COOLING SETPOINT, THE ZONE DAMPER SHALL MODULATE BETWEEN THE MINIMUM UNOCCUPIED AIRFLOW (ADJ.) AND THE MAXIMUM COOLING AIRFLOW (ADJ.) UNTIL THE ZONE IS SATISFIED. ALARMS SHALL BE PROVIDED AS FOLLOWS: . HIGH /LOW ZONE TEMP: IF THE ZONE TEMPERATURE IS GREATER/LOWER THAN THE COOLING SETPOINT BY A USER DEFINABLE AMOUNT (ADJ.). VAV BOX COOLING ONLY (TYP.) THE CONTROLS IS TO BE AN EXPANSION OF THE EXISTING ANDOVER CONTROL BUILDING AUTOMATION SYSTEM THAT IS INSTALLED AT THE BUILDING. THE NEW CONTROLLERS WILL NEED TO SHARE DATA WITH THE EXISTING SYSTEM AND MONITORING POINTS TO ALLOW FOR GLOBAL CONSUMPTION TRENDING AND REPORTING. THE EXISTING ANDOVER CONTROLS WORKSTATION WILL INCORPORATE THE NEW SCOPE TO BE DISPLAYED ON THE MAIN CONTROLLER EXISTING GRAPHIC PACKAGE. IN ADDITION THE SYSTEM MAIN CONTROLLER SHALL BE CAPABLE OF STAND ALONE OPERATION IN THE EVENT OF LOSS OF COMMUNICATION FROM THE BUILDING WIDE BAS. PROVIDE ADDITIONAL CONTROLLERS AS REQUIRED. PLEASE CONTACT SIMON NATIONAL CONTROLS ACCOUNT REPRESENTATIVE: BOYD BROTHERS SERVICE, INC. i I INTERPHASE TO EXISTING BUILDING NETWORK. INFINET COMMUNICATION NETWORK CONTROL DIAGRAM NEW HVAC CONTROLLERS GENERAL NOTES: 1. SPACE SENSORS LOCATED AS PER PLANS. 2. FIRE ALARM CONTACTS TO BE PROVIDED BY DIV.16 ELECTRICAL CONTRACTOR. WIRE FROM LOCAL FIRE ALARM CONTACTS TO THE MOTOR SHALL BE BY DIVISION 16 FOR FAN SHUTDOWN. 3. DAMPERS BY OTHERS. 4. SMOKE DETECTORS PROVIDED BY OTHERS AND INSTALLED BY F/A CONTRACTOR. 5. VAV MANUFACTURER TO PROVIDE FACTORY MOUNTING AND WIRING OF THE DDC VAV BOX CONTROLLER. 6. CONTROLLERS MUST HAVE H -O -A SWITCHES (NOT APPLICABLE TO VAV /FAN POWERED BOXES CONTROLLERS). 7. DIV.16 ELECTRICAL CONTRACTOR IS TO PROVIDE A TRUE EARTH GROUND AT THE CONTROLLER LOCATIONS. 8. DIV.16 ELECTRICAL CONTRACTOR IS TO PROVIDE POWER AT EACH VAV BOX, INCLUDING A TRUE EARTH GROUND. BASIS OF DESIGN SCHNEIDER ELECTRIC /ANDOVER /ADVANCED CONTROLS CORP. 954 - 491 -6660 BAS RESPONSIBILITY MATRIX WORK FURNISH INSTALL LOW VOLT. WIRING/TUBE LINE POWER BAS AND COMMUNICATION WIRING BAS BAS BAS N/A CONTROL VALVES BAS 15 BAS N/A BAS SENSORS BAS BAS BAS N/A SMOKE DETECTORS 16 16 16 16 STARTERS, HOA SWITCHES 16 16 N/A 16 VFDs 16 16 BAS 16 ADVANCED Control Corporation FILTER SD & FAS FAN SHUT STATUS DOWN, BY OTHERS of Q MIXED AIR V DESCRIPTION A FAN STATUS §1 SUPPLY AIR VFD VFD SPEED TEMPERATURE OA DAMPER ACTUATOR X X 02 O OA FLOW SENSOR X X : : ^ - OA FLOW SENSOR TEMPERATURE Al COOLING ELECTRIC AI O COIL HEATER O3 F FILTER DP SW O M MIXED AIR TEMP SENSOR X X A C H OA F SF SA 05 R RA DAMPER ACTUATOR X X Os R RA TEMP SENSOR X X 07 C CHW CONTROL VALVE X S C C Q F FAN ON /OFF X X 9 F FAN STATUS X X ®O ®� FAN ON /OFF Al " 10 V VFD SPEED X X OA DAMPER FAN STATUS (MOD) RA DAMPER VFD SPEED STAGES ®'© (MOD) S §IVFD O Al O CHW VALVE SA TEMP SENSOR X X 1 E ELECTRIC HEATER X X 13 S SPACE TEMP SENSOR X X TEM P. MODULATION AI 19 O RA CONTROL DIAGRAM SPACE SENSOR SELECTION TO BE COORDINATED WITH OWNER SEQUENCE OF OPERATIONS: R_ UN CONDITIONS — SCHEDULED: THE UNIT SHALL RUN BASED UPON AN OPERATOR ADJUSTABLE SCHEDULE IN ONE OF THE FOLLOWING MODES: • OCCUPIED MODE: UNIT SHALL BE ENABLED AND OUTSIDE AIR DAMPER SHALL OPEN. • UNOCCUPIED MODE: UNIT SHALL BE DISABLED AND OUTSIDE AIR DAMPER SHALL CLOSE. OPTIMAL START: THE UNIT SHALL USE AN OPTIMAL START ALGORITHM FOR MORNING START —UP. THIS ALGORITHM SHALL MINIMIZE THE UNOCCUPIED WARM —UP OR COOL —DOWN PERIOD WHILE S11LL ACHIEVING COMFORT CONDITIONS BY THE START OF SCHEDULED OCCUPIED PERIOD. EMERGENCY6MOKE DETECTION SHUTDOWN: THE UNIT SHALL SHUT DOWN AND GENERATE AN ALARM UPON RECEIVING AN EMERGENCY /SMOKE DETECTION SIGNAL. SMOKE DETECTOR PROVIDED AND INSTALLED BY FIRE ALARM CONTRACTOR. SUPPLY FAN: THE SUPPLY FAN SHALL RUN ANYTIME THE UNIT IS COMMANDED TO RUN, UNLESS SHUTDOWN ON SAFETIES. TO PREVENT SHORT CYCLING, THE SUPPLY FAN SHALL HAVE A USER DEFINABLE (ADJ.) MINIMUM RUNTIME. ALARMS SHALL BE PROVIDED AS FOLLOWS: • SUPPLY FAN FAILURE: COMMANDED ON, BUT THE STATUS IS OFF. • SUPPLY FAN IN HAND: COMMANDED OFF, BUT THE STATUS IS ON. • SUPPLY FAN RUNTIME EXCEEDED: STATUS RUNTIME EXCEEDS A USER DEFINABLE LIMIT (ADJ.). COOLING MODE: THE CONTROLLER SHALL MONITOR THE SPACE TEMPERATURE AND SHALL MODULATE THE FAN SPEED THRU ITS VFD TO MAINTAIN A SPACE TEMPERATURE SETPOINT OF 75T (ADJ.). COOLING COIL VALVE: THE CONTROLLER SHALL MEASURE THE SUPPLY DISCHARGE AIR TEMPERATURE AND MODULATE THE COOLING COIL VALVE TO MAINTAIN ITS COOLING SETPOINT OF 55'' (ADJ.). HEATING MODE: THE COOLING COIL VALVE SHALL CLOSE AND THE CONTROLLER SHALL MONITOR THE SPACE TEMPERATURE AND SHALL MODULATE THE STAGES OF THE ELECTRICAL HEATER TO MAINTAIN A HEATING SETPOINT OF 707 (ADJ.). SUPPLY / RETURN / MIXED AIR TEMPERATURE: THE SYSTEM SHALL MONITOR THE SUPPLY / RETURN / MIXED AIR TEMPERATURES. ALARMS SHALL BE PROVIDED AS FOLLOWS: • HIGH / LOW SUPPLY AIR TEMP. OA / RA DAMPERS: DURING OCCUPIED MODE THE OA DAMPER SHALL OPEN TO ALLOW IN THE MINIMUM OA REQUIREMENTS. DURING UNOCCUPIED MODE AND OPTIMAL START UP TIME THE OA DAMPER SHALL CLOSE AND THE RA DAMPER SHALL OPEN ALLOWING AIR RECIRCULATION. AIR FLOW SENSOR: THE CONTROLLER SHALL MEASURE THE OUTSIDE AIR FLOW AND MODULATE THE OA / RA DAMPERS TO MAINTAIN THE MINIMUM OA VENTILATION REQUIREMENTS. THE CONTROLLER SHALL GENERATE AN ALARM WHEN THE SYSTEM IS 10 % BELOW OF THE DESIGN MINIMUM VENTILATION. FILTER STATUS: A DIFFERENTIAL PRESSURE SWITCH SHALL MONITOR THE DIFFERENTIAL PRESSURE ACROSS THE FILTER WHEN THE FAN IS RUNNING. ALARMS SHALL BE PROVIDED AS FOLLOWS: • FILTER DIRTY. CHW AHU -5, 6 AND 7 OA FLOW SENSOR AI 20 A OA F Is ®0 OA DAMPER (MOD) LTER DIRTY. FILTER STATUS of Q MIXED AIR TEMPERATURE To COOLING COIL C C NJ®O RA DAMPER (MOD) Al 06 RA TEMP. RA SD & FAS FAN SHUT DOWN, BY OTHERS SF FAN ON /OFF V DESCRIPTION A FAN STATUS §1 SUPPLY AIR VFD VFD SPEED TEMPERATURE CHW VALVE MODULATION CONTROL DIAGRAM SA SUPPLY AIR STATIC PRESSURE (LOCATED 2/3 DOWNSTREAM OF FAN) SEE PLANS FOR LOCATION INPUT OUTPUT POINTS LIST = TAG D DESCRIPTION A AI A AG U UI D DU 1 O OA DAMPER ACTUATOR X X 02 O OA FLOW SENSOR X X : : ^ - - O3 F FILTER DP SW O M MIXED AIR TEMP SENSOR X X 05 R RA DAMPER ACTUATOR X X Os R RA TEMP SENSOR X X 07 C CHW CONTROL VALVE X X Q F FAN ON /OFF X X 9 F FAN STATUS X X 10 V VFD SPEED X X 11 S SA TEMP SENSOR X X 1 E ELECTRIC HEATER X X 13 S SPACE TEMP SENSOR X X RA TEMP SENSOR X O CHW CONTROL VALVE X s FAN ON /OFF X 09 FAN STATUS X 10 VFD SPEED X 11 SA TEMP SENSOR X 12 SA STATIC PRESS. SENSOR X SEQUENCE OF OPERATIONS: RUN CONDITIONS - SCHEDULED: THE UNIT SHALL RUN BASED UPON AN OPERATOR ADJUSTABLE SCHEDULE IN ONE OF THE FOLLOWING MODES: • OCCUPIED MODE: UNIT SHALL BE ENABLED AND OUTSIDE AIR DAMPER SHALL OPEN. • UNOCCUPIED MODE: UNIT SHALL BE DISABLED AND OUTSIDE AIR DAMPER SHALL CLOSE. OPTIMAL START: THE UNIT SHALL USE AN OPTIMAL START ALGORITHM FOR MORNING START -UP. THIS ALGORITHM SHALL MINIMIZE THE UNOCCUPIED WARM -UP OR COOL -DOWN PERIOD WHILE STILL ACHIEVING COMFORT CONDITIONS BY THE START OF SCHEDULED OCCUPIED PERIOD. EMERGENCY /SMOKE DETECTION SHUTDOWN: THE UNIT SHALL SHUT DOWN AND GENERATE AN ALARM UPON RECEIVING AN EMERGENCY /SMOKE DETECTION SIGNAL SMOKE DETECTOR PROVIDED AND INSTALLED BY FIRE ALARM CONTRACTOR. SUPPLY FAN: THE SUPPLY FAN SHALL RUN ANYTIME THE UNIT IS COMMANDED TO RUN, UNLESS SHUTDOWN ON SAFETIES. TO PREVENT SHORT CYCLING, THE SUPPLY FAN SHALL HAVE A USER DEFINABLE (ADJ.) MINIMUM RUNTIME. ALARMS SHALL BE PROVIDED AS FOLLOWS: • SUPPLY FAN FAILURE: COMMANDED ON, BUT THE STATUS IS OFF. • SUPPLY FAN IN HAND: COMMANDED OFF, BUT THE STATUS IS ON. • SUPPLY FAN RUNTIME EXCEEDED: STATUS RUNTIME EXCEEDS A USER DEFINABLE LIMIT (ADJ.). SUPPLY AIR DUCT STATIC PRESSURE CONTROL: THE CONTROLLER SHALL MEASURE DUCT STATIC PRESSURE AND MODULATE THE SUPPLY FAN VFD SPEED TO MAINTAIN A DUCT STATIC PRESSURE SETPOINT. THE SPEED SHALL NOT DROP BELOW 30% (ADJ.). ALARMS SHALL BE PROVIDED AS FOLLOWS: • HIGH/LOW SUPPLY AIR STATIC PRESSURE • VFD FAULT SUPPLY AIR TEMPERATURE SETPOINT - FIXED: THE CONTROLLER SHALL MONITOR THE SUPPLY AIR TEMPERATURE AND SHALL MAINTAIN A FIXED SUPPLY AIR TEMPERATURE SETPOINT OF 55-F (ADJ.). COOLING COIL VALVE: THE CONTROLLER SHALL MEASURE THE SUPPLY AIR TEMPERATURE AND MODULATE THE COOLING COIL VALVE TO MAINTAIN ITS COOLING SETPOINT. SUPPLY /RETURN /MIXED AIR TEMPERATURE: THE SYSTEM SHALL MONITOR THE SUPPLY /RETURN /MIXED AIR TEMPERATURES. ALARMS SHALL BE PROVIDED AS FOLLOWS: • HIGH /LOW SUPPLY AIR TEMP. OA / RA DAMPERS: DURING OCCUPIED MODE THE OA DAMPER SHALL OPEN TO ALLOW IN THE MINIMUM OA REQUIREMENTS. DURING UNOCCUPIED MODE AND OPTIMAL START UP TIME THE OA DAMPER SHALL CLOSE AND THE RA DAMPER SHALL OPEN ALLOWING AIR RECIRCULATION. AIR FLOW SENSOR: THE CONTROLLER SHALL MEASURE THE OUTSIDE AIR FLOW AND MODULATE THE OA / RA DAMPERS TO MAINTAIN THE MINIMUM OA VENTILATION REQUIREMENTS. THE CONTROLLER SHALL GENERATE AN ALARM WHEN THE SYSTEM IS 10 % BELOW OF THE DESIGN MINIMUM VENTILATION. FILTER STATUS: A DIFFERENTIAL PRESSURE SWITCH SHALL MONITOR THE DIFFERENTIAL PRESSURE ACROSS THE FILTER WHEN THE FAN IS RUNNING. ALARMS SHALL BE PROVIDED AS FOLLOWS: • FI /.:�• \ IN U&MUS 1 z Lid ><.Ii;vr: E. 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AR96861 W ' 0 1++' ARCHITECT m z 0 0 z 0 U O z Z 0 z W O z J a > CONSULTANT gm � scale: 1iJ as shown z release date: gpril 17, 2014 U drawn by: = es GM CONSULTING � cheked by: ENGINEERS = De N 5001 SW 74th COURT o SUITE #204 � M-3 MIAMI, FLORIDA 33155 PHONE: (305) 663 -2944 •- FAX: (305) 663 -2970 0 E —MAIL: office ®gm— ce.net u 5 SHEET NO. z w Z NCpO V) -N 0 C) 00 ,OU Q Nom^ —COO ,n 10 0 _ W . � Z j u- Q O a_ J 3 Q w o 0 N Nz v W U O = w —� W 4t: o z J = o0 �N m O CL _j z 0 0 N M � LO rO n N W W W 0 0 r d 0 a W o � � w U � O tY Z o O oc z O W Q N In 3 0 Z 0 Lu CL 0 J N • H z U 0 Z � Z0 z W � 3 J Z o w z 0 U Z N - O z o 0 N W Z a W U p `—' 7 O L > -a z �o o N N LL M I ' ' N N M H 4.1i..� Z N M 0 W Q �C o ONi a wo 5 0 z z 0 U _ N z 0 U 3 0 Z 0 W U o CHRISTIAN A. VIDAL, AIA a � LICENSE NO. AR96861 W ' 0 1++' ARCHITECT m z 0 0 z 0 U O z Z 0 z W O z J a > CONSULTANT gm � scale: 1iJ as shown z release date: gpril 17, 2014 U drawn by: = es GM CONSULTING � cheked by: ENGINEERS = De N 5001 SW 74th COURT o SUITE #204 � M-3 MIAMI, FLORIDA 33155 PHONE: (305) 663 -2944 •- FAX: (305) 663 -2970 0 E —MAIL: office ®gm— ce.net u 5 SHEET NO. z w Z NCpO V) -N 0 C) 00 ,OU Q Nom^ —COO ,n 10 0 _ W . � Z j u- Q O a_ J 3 Q w o 0 N Nz v W U O = w —� W 4t: o z J = o0 �N m O CL _j z 0 0 N M � LO rO n N W W W 0 0 r d 0 a W o � � w U � O tY Z o O oc o CHRISTIAN A. VIDAL, AIA a � LICENSE NO. 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